EDRS-A and its laser are ready to fly

EDRS-A and its laser are ready to fly
The European Data Relay System’s first node, EDRS-A, is packed into its flightcase atop its host satellite Eutelsat-9B in Airbus Defence and Space’s facilities in Toulouse, France. It will be flown in an Antonov plane to Baikonur, Kazakhstan, for launch. Credit: Airbus Defence and Space

After a year-long wait in storage for a Proton rocket to become available, the EDRS-A laser communications payload and its Eutelsat host satellite are finally at the Baikonur cosmodrome and being prepared for launch in late January.

EDRS-A is the first element of the European Data Relay System, which will collect information from low-orbiting satellites via laser and send it down to Earth in near-real time. It was packed into an Antonov plane by Airbus Toulouse, France and flown to Kazakhstan in November.

The Eutelsat-9B/EDRS-A satellite has undergone a plethora of tests to make sure it is space-ready after its journey.

EDRS-A's laser terminal is essentially an autonomous state-of-the-art telescope, with mirrors to help the laser lock on to its mark in lower orbits from its own position in .

The moving target can be up to 45 000 km away and requires an astonishing level of precision to hit.

Extreme precision requires absolute cleanliness before EDRS-A reaches orbit – any grime or speck of dust can affect the terminal's mirrors and ability to pinpoint its target.

ESA's Martin Born performed a last inspection: "The terminal is in excellent shape and all the tests we have performed so far have demonstrated its readiness for the mission.

"It has been purged with dry nitrogen gas to prevent any contamination from getting into the aperture. The multilayer insulation has been sealed for flight, and the terminal will now remain closed and locked until EDRS-A reaches orbit."

EDRS-A and its laser are ready to fly
The European Data Relay System’s first node, EDRS-A, is packed safely onboard an Antonov plane ready to be flown to Baikonur, Kazakhstan, for launch. Credit: Airbus Defence and Space

Laser beams are capable of higher accuracy and capacity than radio – up to a record-breaking 1.8 Gbit/s of user data. The terminal is also fitted with a Ka-band radio transmitter to deliver the data to a ground station.

The radio downlink is an important part of EDRS's services. Like the laser element, it is a two-way link that helps EDRS customers to send commands to their satellites.

Nicolas Le Gallou, EDRS-A payload engineer, said: "Checks on the payload here in Baikonur include verification of the good health of all the radio-frequency equipment.

"The digital processor, modulators and receivers have all been checked to make sure they were not harmed during transit. All the results were in line with the tests done in Toulouse prior to shipment."

EDRS-A and its laser are ready to fly
The European Data Relay System (EDRS) is designed to transmit data between low earth orbiting satellites and the EDRS payloads in geostationary orbit using innovative laser communication technology. Composed of a hosted payload (EDRS-A) on a commerical telecom satellite and a dedicated satellite (EDRS-C) in geostationary orbit, EDRS will dramatically increase the speed of data transmission for satellites in lower orbits and airborne platforms to relay their information to users on the ground. Nicknamed the 'SpaceDataHighway' by industry, EDRS complements current downlink infrastructures and allows for near-realtime services on a global scale. EDRS-A is planned for launch in the first quarter of 2015, with EDRS-C to follow a year later. The system has Mission Operations Centres in Ottobrunn (DE) and Redu (BE), Spacecraft/Payload Control Centres in Oberpfaffenhofen (DE) and ground stations in Redu (BE), Harwell (GB) and two in Weilheim (DE). Credit: European Data Relay System (EDRS)

With the majority of checks now made and the payload found to be doing well and in lockdown before launch, attention turns to its host, Eutelsat-9B, a commercial telecom satellite by Eutelsat, one of the world's leading satellite operators.

ESA's Khalil Kably notes, "So far, so good. We have passed the flight readiness review with no issues. The satellite is now at maximum helium gas pressure. The next step is to push the to the fuelling stand, where a few hundred kilograms of propellant will be loaded.

"Meanwhile, the Russian teams are proceeding with the Proton launcher's mechanical assembly and electrical tests."


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Citation: EDRS-A and its laser are ready to fly (2015, December 9) retrieved 25 August 2019 from https://phys.org/news/2015-12-edrs-a-laser-ready.html
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